In an engine cogeneration system in which power generators 5 to 8 are driven by a plurality of engines 1 to 4 to thereby supply electric power to power load 22 of a general household, at the same time, heat produced by cooling each of the engines 1 to 4 and heat generated from the exhaust gas are re
In an engine cogeneration system in which power generators 5 to 8 are driven by a plurality of engines 1 to 4 to thereby supply electric power to power load 22 of a general household, at the same time, heat produced by cooling each of the engines 1 to 4 and heat generated from the exhaust gas are recovered by heat exchangers 18 and 19 to be stored as hot water into a hot-water tank 20 to supply heat to heat load 21 of the general household, the amount of power to be supplied and of the amount of heat to be supplied are controlled by a number of the engines 1 to 4 and the combustion modes of these engines 1 to 4. This engine cogeneration system can follow both the head demand and power demand in a high efficiency.
대표청구항▼
1. An engine cogeneration system in which at least one power generator is driven by a plurality of engines to supply electric power, and at the same time, at least one of exhaust heat and coolant heat from said plurality of engines is recovered to supply the heat to a heat load, wherein a combustion
1. An engine cogeneration system in which at least one power generator is driven by a plurality of engines to supply electric power, and at the same time, at least one of exhaust heat and coolant heat from said plurality of engines is recovered to supply the heat to a heat load, wherein a combustion mode of at least one of the plurality of engines is controlled to meet a demanded heat load and power load.2. The engine cogeneration system according to claim 1, which is connected to a commercial power source so that when an amount of power supplied from said power generator to said power load is lacking, power is supplied from said commercial power source.3. The engine cogeneration system according to claim 1, which comprises a storage for storing an excess power, so that when an amount of power supplied from said power generator to said power load is excess, the excess power can be stored.4. The engine cogeneration system according to claim 1, which is configured so that when an amount of power supplied from said power generator to said power load is excess, the excess amount of the power is converted into heat which is supplied to said heat load, and which is stored.5. The engine cogeneration system according to claim 1, wherein the number of engines to be driven is controlled to meet a demanded heat load and power load.6. The engine cogeneration system according to claim 1, wherein at least two of the plurality of engines are operated to meet the demanded heat load and power load, and the combustion mode of each operating engine is selected to minimize a difference between a ratio of total heat production and total power production from the engines, and a ratio of the demanded heat load to a demanded power load.7. The engine cogeneration system according to claim 1, wherein the combustion mode is any of a spark ignition combustion mode, a retard of spark ignition combustion mode, and a homogeneous charge compression and ignition combustion mode.8. The engine cogeneration system according to claim 7, wherein in the case where said combustion mode of any of said plurality of the engines includes at least said homogeneous charge compression and ignition combustion mode, when the engine is switched to said homogeneous charge compression and ignition combustion mode, the switching is made under the condition that the combustion mode before switching must be said spark ignition combustion mode.9. The engine cogeneration system according to claim 7, wherein at least one control of a number of engines to be driven and a combustion mode of said engine is executed with the consideration that said engine including the homogeneous charge compression and ignition combustion mode is difficult to be driven at said homogeneous charge compression and ignition combustion mode.10. A method of operating an engine cogeneration system comprising at least one power generator driven by a plurality of engines to supply electric power, said plurality of engines at the same time supplying heat to a heat load recovered from at least one of exhaust heat and coolant heat, comprising the steps of:identifying a demanded heat load and power load;determining an engine operating scheme in which a number of the plurality of engines to be operated and a combustion mode of each of the engines to be operated will meet the demanded heat load and power load while minimizing a difference between a ratio of total heat production and total power production from the operating engines, and a ratio of the demanded heat load to a demanded power load; andcontrolling the operation of the number and combustion mode of said engines in accordance with the determined engine operating scheme.11. The cogeneration system operating method of claim 10, wherein the combustion mode of each of the operating engines is one of a spark ignition combustion mode, a retard of spark ignition combustion mode, and a homogeneous charge compression and ignition combustion mode.
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이 특허에 인용된 특허 (4)
Lyons James P. (Newark DE) Topper Richard (Glenside PA), Cogeneration system and method.
Agazzone Umberto (Novara ITX) Ausiello Francesco P. (Turin ITX), Control and protection system for an installation for the combined production of electrical and thermal energy.
Ausiello Francesco P. (Turin ITX), Modular power plant for the combined production of electrical and thermal energy and installation comprising a plurality.
Aldridge,Wayne Kenneth; Clark,David Anthony; Francis,George McChesney; Allderidge,Heather; Roberts,Graham Richard, Domestic combined heat and power unit.
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